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Encyclopedia of Biological Chemistry

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  • Saadedin
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    • Sep 2018 
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    Written for a broad* cross-disciplinary audience* the Encyclopedia of Biological Chemistry addresses the fundamental discipline of biological chemistry underlying virtually all of the life sciences. This compilation of more than 500 different entries encompasses all aspects of biochemistry* as well as the extensions of this subject into the related fields of molecular biology* cell biology* genetics and biophysics. This comprehensive encyclopedia covers all areas of biological chemistry written by more than 500 selected international experts. Articles are generously illustrated including more than 800 images in four-color. Each entry contains a clear* concise review of the topic along with illustrations* a glossary of technical terms and a section for additional reading. Each entry further contains general background and term definitions as well as a comprehensive review of the current research in the field. Students* science journalists and scientists seeking a concise introduction to specific topics will appreciate the clear* tabular format of each entry.







    Topology

    Most, but not all, ABC proteins are ABC transporters.

    Each of those molecules contains, or is associated to, one

    or two cytoplasmic ATP-binding domains named nucleotide

    binding domains (NBDs) (Figure 1) and one or two

    transmembrane domains (TMDs) (Figure 2). Each TMD

    comprises usually six

    a-helix spans. Association of one

    TMD to one NBD results in a half-size ABC transporter;

    however, they are believed to function as homo- or

    heterodimers so that the minimal functional organization

    of an ABC transporter is considered to be TMD–NBD–

    TMD–NBD or NBD–TMD–NBD–TMD. In eukaryotes,

    two TMDs and two NBDs are often associated in

    one single molecule called full-sized ABC transporter.

    The topological relation between NBD(s) and TMDs is

    variable (Figure 2). In bacteria two NBDs often associate

    with two TMDs either as four single subunits encoded by

    the same operon or in various combinations of fused

    subunits. Association of other proteins may occur. The

    most prominent associated bacterial protein is the

    periplasmic solute-binding receptor, which in gramnegative

    bacteria is found in the periplasm, and in

    gram-positive bacteria is present often as a lipoprotein,

    bound to the external membrane surface via electrostatic

    interactions (Figure 3). The three domains of the bacterial

    ABC uptake transporters: namely the periplasmic



    binding receptor, the cytoplasmic NDB, and the membrane

    TMD are believed to have arisen from a common

    ancestral ABC transporter in which these three proteins

    were already present. However, during evolution, the

    sequence of the periplasmic solute-binding receptors

    diverges more rapidly than that of the TMDs, while that

    of NBDs is the least divergent. Thus, all NBDs

    are homologous, but this is not true for the TMDs or

    the receptors. Nevertheless, the phylogenetic clustering

    patterns in bacterial ABC from different species are

    generally the same for all three types of proteins, despite

    their variable rate of evolution.

    The topology of some eukaryotic ABC effluxers can

    be complex as additional TM spans occur in some

    systems (Figure 3) as well as extra cytoplasmic domains

    of presumed regulatory function.







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